Genome-wide DNA methylation analysis on C-reactive protein among Ghanaians suggests molecular links to the emerging risk of cardiovascular diseases

Felix P Chilunga,Ana Requena-Méndez,Marcel M.A.M Mannens,Erik Beune,Ina Danquah,Liam Smeeth,Adebowale Adeyemo,Karlijn A C Meeks,Andrea Venema,Silver Bahendeka,Peter Henneman,Charles Agyemang,Frank P Mockenhaupt,Kerstin Klipstein-Grobusch

doi:10.1038/s41525-021-00213-9

Abstract

Molecular mechanisms at the intersection of inflammation and cardiovascular diseases (CVD) among Africans are still unknown. We performed an epigenome-wide association study to identify loci associated with serum C-reactive protein (marker of inflammation) among Ghanaians and further assessed whether differentially methylated positions (DMPs) were linked to CVD in previous reports, or to estimated CVD risk in the same population. We used the Illumina Infinium® HumanMethylation450 BeadChip to obtain DNAm profiles of blood samples in 589 Ghanaians from the RODAM study (without acute infections, not taking anti-inflammatory medications, CRP levels < 40 mg/L). We then used linear models to identify DMPs associated with CRP concentrations. Post-hoc, we evaluated associations of identified DMPs with elevated CVD risk estimated via ASCVD risk score. We also performed subset analyses at CRP levels ≤10 mg/L and replication analyses on candidate probes. Finally, we assessed for biological relevance of our findings in public databases. We subsequently identified 14 novel DMPs associated with CRP. In post-hoc evaluations, we found that DMPs in PC, BTG4 and PADI1 showed trends of associations with estimated CVD risk, we identified a separate DMP in MORC2 that was associated with CRP levels ≤10 mg/L, and we successfully replicated 65 (24%) of previously reported DMPs. All DMPs with gene annotations (13) were biologically linked to inflammation or CVD traits. We have identified epigenetic loci that may play a role in the intersection between inflammation and CVD among Ghanaians. Further studies among other Africans are needed to confirm our findings.

Highlights

Cardiovascular diseases (CVD) are rapidly becoming the leading causes of morbidity and mortality among African populations[1].Changes in life-style factors are prominent contributors to the emerging risk of cardiovascular diseases (CVD)
We found that our top 14 cell stimulation, methyl-branched fatty acid metabolic process, genome-wide significant differentially methylated positions (DMPs) were detectable in sensitivity fatty acid biosynthesis, B-cell receptor signaling pathway, Hepatitis analyses that excluded Body mass index (BMI) and type 2 diabetes (T2D) as covariates in linear C and metabolic pathways which seem biologically plausible in regression models
We identified 14 novel DMPs associated with C-reactive protein (CRP) levels up to 40 mg/L in Ghanaians without acute infections or taking antiinflammatory medications

Summary

Introduction

Changes in life-style factors (e.g. tobacco smoking, poor diet and physical inactivity) are prominent contributors to the emerging risk of cardiovascular diseases (CVD). These factors do not fully account for the growing burden of CVD2. DNA methylation (DNAm) is the most studied and best understood epigenetic modification[6] It is affected by environment changes such as inflammation and modulates gene expression via the regulation of transcription factor binding and attraction of methylbinding proteins that initiate chromatin compaction and gene silencing[6]. Studies among populations from high income countries (HIC) have identified DNAm sites that link inflammation to CVD7

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